Engineering

1. Engineering Design Issues for EOC’s, Hurricane Shelters and other Essential Facilities

2. Florida Emergency Operations Centers Design and Evaluation Criteria Danny Kilcollins, FPEM Planning Manager Division of Emergency Management

3. Features of a Survivable EOC

4. Minimum Hurricane Safety Criteria for Critical Facilities

5. ARC 4496 Hurricane Hazards • Wind • Storm Surge Flooding • Rainfall Flooding • Hazardous Materials

6. High Performance Design Criteria: DOE-STD-1020

7. DOE-STD-1020 Natural Hazards • Wind • Flooding • Earthquake

8. Hurricane Wind Design

9. DOE 1020 Wind Design

10. Return Period Years

11. ASCE 7-02

12. Florida Building Code – Basic Wind Speeds and Windborne Debris Impact Regions

13. Basic Wind Speed Conversions

14. 1,000-yr Return Period

15. 1,000-yr Recurrence Wind Speeds for Florida

16. Fla. PC 3 Wind Design Criteria

17. 10,000-yr Return Period

18. 10,000-yr Recurrence Wind Speeds for Florida

19. Fla. PC 4 Wind Design Criteria

20. Probable Minimum Central Pressure Limit Estimate for Hurricanes; Source: K. Emanuel (1996)

21. Minimum Central Pressure to Wind Velocity Conversion • Source: Hurricanes and Typhoons: Past, Present and Future; Landsea, etal • 880 mb = 190 mph (232 mph, 3-sec gust) • 885 mb = 185 mph (226 mph, 3-sec gust) • 890 mb = 180 mph (220 mph, 3-sec gust) • 900 mb = 170 mph (208 mph, 3-sec gust) • 910 mb = 165 mph (202 mph, 3-sec gust)

22. Windborne Debris Impact Resistance Criteria

23. Representative Wind Design Criteria • Applies to the EOC and essential ancillary structures and service equipment • Wind Load Design per ASCE 7 Standard • Load Factor Reductions per (draft) ICC 500 • Minimum Design Wind Speed = 190 mph, 3-second gust • Wind Importance Factor, I=1.00 • Exposure Category = C • Directionality Factor, Kd=1.00 • Internal Pressure Coefficient, GCpi= +0.18/-0.18

24. Representative Wind Design Criteria • The EOC designated as a threshold building, and special structural inspections required • Special inspections conducted in compliance with section 553.79, Florida Statutes and other applicable statutes, laws and rules

25. Representative Wind Design Criteria • Design Windborne Debris Missile = 15 lb 2x4 propelled at 50 mph (74 ft/sec) • Momentum = 34 lb-sec • Energy = 1,275 ft-lb • Design missile applies to all exterior enclosure components, claddings and assemblies (i.e., walls, roofs, louvers, windows, doors, etc.) • Design missile applies to enclosure surfaces located within 60 feet in height above finish grade

26. Tornado Wind Design

27. FEMA 361 – Tornado Winds

28. FEMA 361 Wind Zones

29. TORNADO EVENTS IN FLORIDA F0

30. Representative Tornado Wind Design • Applies to the EOC and essential ancillary structures and service equipment • Wind Load Design per ASCE 7 Standard • Load Factor Reductions per FEMA 361 • Minimum Design Wind Speed = 200 mph, 3-second gust • Wind Importance Factor, I=1.00 • Exposure Category = C • Directionality Factor, Kd=1.00 • Internal Pressure Coefficient, GCpi= +0.55/-0.55 • Atmospheric Pressure Change (APC) or venting req’d

31. Representative Wind Design Criteria • The EOC designated as a threshold building, and special structural inspections required • Special inspections conducted in compliance with section 553.79, Florida Statutes and other applicable statutes, laws and rules

32. Representative Wind Design Criteria • Design Windborne Debris Missile = 15 lb 2x4 propelled at 100 mph (147 ft/sec) • Momentum = 68 lb-sec • Energy = 5,033 ft-lb • Design missile applies to all exterior enclosure components, claddings and assemblies (i.e., walls, roofs, louvers, windows, doors, etc.) • Design missile applies to enclosure surfaces located within 150 feet in height above finish grade

33. Flood & Rainfall Design

34. DOE 1020 Flood Criteria

35. NOAA HMR No. 51 and No. 52Probable Maximum PrecipitationEstimates

36. 24-hour PMP @ 10 sq.mi. Basin

37. 72-hour PMP @ 10 sq.mi. Basin

39. Estimated 24-hour Rainfall Rates w/Recurrence Intervals

40. Conversion of 10 sq.mi. PMPs to 1 sq.mi. PMPs

41. 1-hour PMP @ 1 sq.mi. Basin

42. Estimated 1-hour Rainfall Rates w/Recurrence Intervals

43. Summary of Flood Design Criteria

44. Summary of Flood Design Criteria

45. Storm Surge Flooding • SLOSH Storm Surge Model • Category 5 inundation depth/elevation, NGVD • Maximum Envelope of Water • Margin of Error = +/- 20% • Category 5 elev. + 20% = Probable Maximum Inundation

46. Storm Surge Flooding • Fla. Performance Category 3 = Cat. 5 + 15% • Fla. Performance Category 4 = Cat. 5 + 20% • Performance suggested per county based on PC 4 (10,000-yr) Wind Map • Design wind speeds at coast that are greater than or equal to 190 mph (3-sec. gust) = Cat. 5 + 20% • Design wind speeds at coast that are less than 190 mph (3-sec. gust) = Cat. 5 + 15%

47. Representative Flood Design Criteria • Applies to lowest floor for the EOC and essential ancillary structures and service equipment • Finished Floor Elevation NGVD determined by: • Category 5 storm surge elev. + 20% • BFE + 3.0 feet • 500-yr elevation + 2.0 feet • Highest recorded flood elevation + 3.0 feet • Whichever flood elevation is highest

48. Representative Flood Design Criteria • The site (point maximum, one square mile) hydrologic design shall ensure that the EOC and essential ancillary structures and service equipment are not flooded due to a 24 hour, 37.0 inch rainfall event applied over a precedent 24 hour, 100-year rainfall event • Opinion of design professional is acceptable • Basin-wide analysis not required

49. Representative Flood Design Criteria • Where secondary (emergency) roof drains or scuppers are required by the Florida Building Code—Plumbing, the secondary system shall be sized for a rainfall rate of eleven (11.0) inches per hour

50. Earthquake Design